Research on automatic monitoring and recognition method of crop growth status based on machine vision.
Abstract
direction in the development of modern agriculture. By conducting real-time monitoring and recognition of the growth status of crops, it is
possible to detect problems in crop growth in a timely manner and improve crop yield and quality. This method utilizes image processing
and computer vision technology, extracts useful feature representations from images using deep learning methods, and classifi es the growth
status of crops based on these features. This method is of great signifi cance, as it can not only improve agricultural production effi ciency and
reduce production costs, but also improve the quality of agricultural products and bring more economic and social benefi ts to agricultural
production. At the same time, this method also provides technical support for precision agriculture, achieving precise management and
regulation of the farmland environment through monitoring and recognition of crop growth status, and improving the output effi ciency
of farmland. In the future, with the continuous advancement of technology and the continuous expansion of application scenarios, the
application prospects of machine vision technology in the agricultural fi eld will be even broader.
Keywords
Full Text:
PDFReferences
[1]Wen Yanlan, Chen Youpeng, Wang Keqiang, etc. Review of disease and insect pest detection based on machine vision [J]. Journal of the Chinese Cereals
and Oils, 2022,37(10):271-279.DOI:10.20048/j.cnki.issn. 1003-0174.000330
[2]Yang Zhen, Guo Yanguang, Lu Xiaobo. A UAV remote sensing image classifi cation method based on the improved AlexNet network [J]. Journal of Hunan
University of Science and Technology(Natural Science Edition), 2023,38(03):59-69.DOI:10.13582/j.cnki.1672-9102.2023.03.008
[3]Guo Wenjuan, Feng Quan, Li Xiangzhou. Research Progress in the Convolutional Neural Network Model Based on the Detection and Identifi cation of
Crop Diseases [J]. China Agricultural Machinery and Chemical News, 2022,43(10):157-166.DOI:10.13733/j.jcam.issn. 2095-5553.2022.10.023
[4]Yu Jian, Hong Xin, Yu Zexiang, etc. Prediction of grain yield in Jiangsu Province based on BP neural network [J]. Journal of Shenyang Normal University
(Natural Science Edition), 2023,41 (04): 316-320.
DOI: https://doi.org/10.18686/esta.v10i4.640
Refbacks
- There are currently no refbacks.
Copyright (c) 2023 Baozhong Liu